Numerical Chromosome Abnormalities

Question 1

2 key differences between mitosis and meiosis::

Answer 1

1. Paternally and maternally derived homologous chromosomes pair at the onset of meiosis (prophase I) whereas the two homologs segregate independently in mitosis
2. Recipricol recombination events between maternal and paternal sister chromatids generate chiasmata (physical linkages) between homologs. In contrast, recombination between homologs is rare during mitosis

Question 2

Bivalents

Answer 2

Structures formed when maternal and paternal homologs of each chromosome become paired (or synapse) along their entire lengths during prophase I of meiosis

Question 3

Maternal and Paternal pairing during prophase I to form bivalents requires formation of wht proteinaceous structure?

Answer 3

synaptonemal complex

Question 4

The synaptonemal complex forms during which phase of meiosis and what does it promote?

Answer 4

prophase I

inter-homolog interactions

Question 5

Reciprocal recombination events during the formation of bivalent in prophase I results in physical links between homologs, these attachments or crossovers are also known as_______

Answer 5

chiasmata

Question 6

How many crossovers, on average, occur on each chromosome during chiasma formation?

Answer 6

2-3

Question 7

What is the consquence of corssingover during prophase I of meiosis

Answer 7

Genetic reassortment between chromosomes

Question 8

When does the synaptonemal complex disassemble?

Answer 8

Then end of prophase I

Question 9

What is the important consequence of synaptonemal complex disassembly at the end of prophase I?

Answer 9

The bivalents are now only held together by chiasmata

Question 10

In which phase of meiosis are homologs separated to opposite poles?

Answer 10

first meiotic division (anaphase I)

Question 11

What is the most common error in meiosis?

Answer 11

Chromosome nondisjunction in meiosis I

Question 12

3 Genetic consequences of meiosis?

Answer 12

reduction of chromosome number from diploid to haploid

random segregation give 2^23 combos

random shuffling due to crossover, increases genetic variability even more`

Question 13

How many rounds of chromosome segregation occur in meiosis vs. mitosis

Answer 13

one in mitosis - yields daughter cell identical is chromosomal content to parental cell

two in meiosis - yield 4 cells with half the chromosomal content to parental cell

Question 14

DNA replication proceeds each round of chromosome segregation in mitosis, what about meiosis?

Answer 14

Nope! two rounds of chromosome segregation occur without an intervening round of DNA replication

Question 15

Is there pairing of homologous chromosomes in mitosis?

Answer 15

No

Question 16

Is there pairing of homologous chromosomes in meiosis?

Answer 16

Yes! requires pairing of homologous chromosomes and recombination for its successful completion

Question 17

Does recombination occur in mitosis

Answer 17

infrequently

Question 18

When do the centromeres on paired sister chromatids segregate in mitosis

Answer 18

EACH anaphase

Question 19

When do centromeres on paired sister chromatids divide in meiosis

Answer 19

ONLY anaphase II

Question 20

What cells undergo mitosis?

Answer 20

somatic cells and germ line precursor cells prior to entry into meiosis

Question 21

What cells undergo meiosis?

Answer 21

only germ line

Question 22

Metacentric chromosomes

Answer 22

the centromere is located in the middle

Question 23

submetacentric chromosomes

Answer 23

centromere is slightly removed from the center

Question 24

acrocentric choromosomes

Answer 24

centromere is near one end of the chromosome

Question 25

Treating chromosomes with Giemsa and DAPI results in what?

Answer 25

Unique banding patterns due to regions high in G+C and A+T –> banding pattern is unique to each human chromosome and allows for unequivocal identification

Question 26

ISCN

Answer 26

International System for Human Cytogenetic Nomenclature - determines chromosome naming

Question 27

Short arms =

Long arms =

Answer 27

p

q

Question 28

When do we visualize chromosomes?

Answer 28

metaphase

Question 29

1-22 human chromosomes are arranged by?

Answer 29

size

Question 30

p and q are the short and long arm respectively, how do we subdivide

Answer 30

regions 1–> outward
then Bands 1—> outward
so p11 would be petite arm region 1 band 1 – right next to centromere

Question 31

On the acrocentric chromosome there are little secondary constriction balls that are highly polymorphic, what are these called and what are they comprised of?

Answer 31

Satellites :)

Repetitive satellite and ribosomal DNA

Question 32

Note that not all specimens are created equally, what does this mean?

Answer 32

peripheral blood chromosomes are different looking than bone marrow than amniotic fluid

Question 33

Ploidy

Answer 33

Number of homologous chromosome sets present in a cell or organism -
so humans are diploid (2n)

Question 34

Diploid

Answer 34

having two sets of chromosomes

Question 35

haploid

Answer 35

having one set of chromosomes (gamete cells)

Question 36

euploidy

Answer 36

“good ploidy” - full set(s) of chromosomes (46)

Question 37

polyploidy

Answer 37

“many ploidy” having a chromosome number that is more than double the basic or haploid number - 69, etc.

triploid - 3 set (69)
tetrapolid - 4 set (92)

Question 38

Aneuploidy

Answer 38

“not good ploidy” - incomplete set

trisomy - 47
monosomy - 45

Question 39

When can aneuploidy occur?

Answer 39

meiosis I (maternal/paternal)

meiosis II (maternal/paternal)

post-zygotic

Question 40

aneuploidy occuring in meiosis I

Discovery?

Answer 40

sponatneous abortions

Question 41

Meiosis II aneuploidy discovery?

Answer 41

Stillbirths

Question 42

Post-zygotic aneuploidy discovery?

Answer 42

Newborns

Question 43

When does the synaptonemal complex form?

Answer 43

When we enter meiosis I

Question 44

Nomenclature for numerical abnormalities

triploidy?

Answer 44

69,XXX
69,XXY
69,XYY

Question 45

Nomenclature for numerical abnormalities?

trisomy

Answer 45

47,XX,+21

Question 46

Nomenclature for numerical abnormalities?

Monosomy

Answer 46

45,X

Question 47

Nomenclature for chromosomal abnormalities?

Mosaicism

Answer 47

45,X/46,XX

Question 48

Aneuploidy (cells contain abnormal chromosome #) frequently results from

Answer 48

nondisjunction - the missegregation of chromosomes at metaphase in either mitosis or meiosis, such that daughter cells receive extra or fewer than the normal number of chromosomes

Question 49

Monosomy

Answer 49

cell lacks one copy of a chromosome

Question 50

trisomy

Answer 50

extra copy of chromosome

Question 51

autosomal monosomies? viable?

Answer 51

no - result in early embryonic lethality

Question 52

x monosomy?

Answer 52

Yes - 45,X = Turner syndrome

Question 53

Autosomal trisomies? viable?

Answer 53

More so than monosomies, most trisomies are compatible with at least some fetal development, but often result in spontaneous abortion

Question 54

What is the predominate cause of most trisomies?

Answer 54

maternal errors in the first meiotic division - increasing proximity to menopause is thought to increase risk

Question 55

What is the most common human chromosomal disorder ascertained in liveborn infants?

Answer 55

Trisomy 21 (1/800)

Question 56

More than 95% of trisomy 21 cases are due to ?

Answer 56

additional chromosome 21 of maternal origin

Question 57

of the additional chromosome 21 from maternal origin, which nondisjunction event is responsible for the vast majority?

Answer 57

maternal meiosis I

Question 58

What is essential for tethering homologous chromosomes during the first meiotic division?

Answer 58

meiotic recombination events (Crossovers)

Question 59

Nondisjunction events can be related to (2)

Answer 59

1. positioning of the chiasmata

2. frequency of crossover events

Question 60

In what way is nondisjunction related to the positioning of chiasmata?

Answer 60

crossover events that occur too near or far from the centromere increase the odds of nondisjunction -

distal exchanges are less effective in ensuring spindle attachment

proximal exchanges can entangle paired homologs - that then undergo reduction division leading to what appears to be MII errors

Question 61

In what way is nondisjunction related to the frequency of crossover?

Answer 61

reduction of crossover (Recombination) increases the likelihood of nondisjunction

Question 62

How many cross over events normally take place / pair of homologous chromosomes?

Answer 62

2-3

Question 63

cross-over event generates what?

Answer 63

chiasma - physical link between homologues which is critical for normal disjunction

Question 64

in addition to being important for segregation, recombination is also important for

Answer 64

genetic diversity

Question 65

2 key causes of genetic variability arising from meiosis

Answer 65

independent assortment of maternal and paternal chromosomes

recombination during prophase I

Question 66

Consequence of nondisjunction in meiosis I

4 gametes what do they have?

Answer 66

N+1 (2)
N+1 (2)
N-1 (0)
N-1 (0)
Thus, 100% abnormal...The N+! have one maternal and one paternal from normal meiosis II following nondisjunction in meiosis I

Question 67

Consequence of nondisjunction in meiosis II

Answer 67

N
N
N+1
N-1

If we have normal meiosis I then maternal and paternal will separate appropriately
Then if one of the second rounds (meiosis II) undergoes nondisjunction we will have one with double maternal (or paternal) and one with none
The other cell should have undergone normal to give rise to one each of normal maternal (or paternal)

*see slide 18

Question 68

Incidence of aneuploidy (varies depending on age)

spontaneous abortions?
stillbirth?
newborns?

Answer 68

Spontaneous abortions -50-60%
stillbirth - 4-6%
newborns 0.6%

Question 69

When does aneuploidy primarily take place?

Answer 69

first trimester?

Question 70

Tolerated aneuploidies

Conceptions

Answer 70

many
45,x,
trisomy16
trisomy21
trisomy22

Question 71

Tolerated anueploidies

Live Births

Answer 71

trisomy 13, 18, or 21
Sex chromosome anueploidy
- gains of x and y
- loss of sex chromosome, e.g, monosomy x

Question 72

Maternal age effect - on aneuploidy?

Two hit theory

Answer 72

1. Diminished recombination

2. Diminished ability to complete segregation if unfavorable recombination

Question 73

Maternal age effect - cohesin theory?

Answer 73

Postulates the degradation of cohesin complex over span of extended meiosis I arrest results in precocious homolog separation

Question 74

What kind of cells must cytogenetic studies use?

Answer 74

Viable - because we need them to be in the mitotic phase of the cell cycle

Question 75

What would the ISCN be for trisomy 21?

Answer 75

47,XY,+21

47,XX,+21

Question 76

Down Syndrome - Trisomy 21 Clinical features

Answer 76

Characteristic facies
Short Stature
Hypotonia 
Hearing loss
Moderate intellectual impairment
Early alzheimers
Leukemia in perinatal period

Question 77

What would the ISCN be for a Down’s child who acquired luekemia and peripheral blood cell contained extra acquired X

Answer 77

48,XX+X,+21c

c is for constitutional, to distinguish it from the acquired leukemic extra X

Question 78

Extra acquire X is a common finding in what

Answer 78

Leukemia

Question 79

What is the most common chromosomal abrnomality in live born? How common?

Answer 79

Trisomy 21

1/800 - 1/900

Question 80

What is the most common genetic cause of moderate intellectual disability

Answer 80

Trisomy 21

Question 81

-4% of Trisomy 21 is associated with what?

Answer 81

balanced translocation in parent

Question 82

What causes the majority of trisomy 21

Answer 82

maternal meiosis I nondisjunction errors

Question 83

What percent of Trisomy 21 Conceptus survive to birth?

Answer 83

20-25%

Question 84

Risk of Trisomy 21
Age
30
35
40

Answer 84

30 -1%
35 -2.8%
40 - 10.4%

Question 85

Cause of maternal risk for trisomy with age?

Answer 85

Due to meiosis I suspension from pre-birth until sexual maturity

Question 86

Trisomy 18 - Edwards syndrome

Clinical features

Answer 86

Small for gestational age
Microcephaly
Clenched fingers
Rocker bottom feet
Heart/brain abnormalities

Question 87

Trisomy 18 - frequency

Answer 87

1/8000 live births

Question 88

Trisomy 18 - perinatal lethality?

Answer 88

90%

Question 89

Turner syndrome ISCN?

Answer 89

45,X

Question 90

Most common chromosome abnormality in spontaneous abortions?

Answer 90

Turner Syndrome 45,X

Question 91

What percent of Turner Syndrome fetuses survive to term?

Answer 91

1%

Thus 99% do not

Question 92

Turner syndrome incidence

Answer 92

1/2,500 female live births

Question 93

Turner syndrome clinical presentation

Answer 93

prenatal lymphedema
Cystic hygroma (large cyst-like cavity containing lymph)
Congenital heart disease
Coarctation of the aorta
Gonadal dysgenesis 
Short stature*
Webbed neck*

Question 94

Most classic phenotype of Turner

Answer 94

Webbed neck and short stature

Question 95

Possible Turner syndrome karyotypes…

Answer 95

Don't need to know them all 
45,X (50%)
46,X,i(Xq)
mos45X,46XX
mos45,X/46X,i(Xq)
Other

The take home point is that only 50% are seen in peripheral blood as pure 45X
25% have known mosaic in the peripheral blood

Question 96

What is hypothesized about the mosaicism seen in 25% of Turner peripheral blood?

Answer 96

Contributes to survival

Question 97

Turner Syndrome variants should remind you to consider what?

Answer 97

To always consider mosaicism including tissue specific mosaicism

Question 98

Which Turner variants have a more severe phenotype?

Answer 98

The 46X tiny ring (X)

Question 99

Trisomy 13 =

Answer 99

Platau syndrome

Question 100

Trisomy 13 (Platau)
clinical features

Answer 100

characteristic facies
severe intellectual deficits
congenital malformations
holoprosencephaly (failure to cerebrum to divide)
facial clefts
polydactyly
renal anomalies

Question 101

47, XXY =

Answer 101

Klinefelter Syndrome

Question 102

Is Klinefelter Syndrome common?

Answer 102

Yes, 1/1000 liveborn males

Question 103

Is Klinefelter lethal in utero?

Answer 103

no

Question 104

Klinefelter phenotype

Answer 104

Tall
Hypogonadism
Underdevelopment 2nd sex
Learning disability and poor psychosocial development

Question 105

Klinefelter parent of origin?

Answer 105

50% paternal meiosis I error

50% maternal meiotic errors (75% in Meiosis I)

Question 106

Klinefelter mosaicism

Most common?

Answer 106

47,XXY/46,XY
Thought to be from postzygotic loss of one copy of the X chromosome
(15%)
Some have normal testicular development

Question 107

Variants of Klinefelter?

Answer 107

48, XXYY
48, XXXY
49, XXXX7 etc

Question 108

Significance of additional X variants in Klinefelter?

Answer 108

increasingly more severe phenotype and retardation

Question 109

Mechanism of tetraploidy (3)

Answer 109

2 sperm (n) fertilize (n) egg

n sperm fertilize 2n egg

2n sperm fertilize n egg

Question 110

tetraploidy mechanism?

Answer 110

Dna duplication but no cell division (endomitosis)

Question 111

Triploid = 3n
How often do we see?
Survive to birth?
Most common cause

Answer 111

1-3% karyotypes
may survive to birth but not long after
most due to two sperm fertilizing one egg

Question 112

How many chromosomes in triploid?

Answer 112

69, XXX

69, XXY

Question 113

What is mosaicism?

Answer 113

Two or more different karyotypes from the same individual

Question 114

What is the most common cause of mosaicism?

Answer 114

Nondisjunction early in embyronic develoment

Question 115

Germ line mosaicism, result of?

Answer 115

nondisjuction in germ cell precursor

Question 116

pseudomosaicism

Answer 116

occurs in lab / not patient

Question 117

Broadly: polyploidy

Answer 117

Extra copies of all chromosomes e.g. 3n or 4n

Question 118

Broadly: aneuploidy

Answer 118

loss or gain of certain chromosomes e.g. 21 or 45x

Question 119

Broadly: mosaicism

Answer 119

A zygote containing two cell lines which differ in chromosome number

Question 120

Chromosomal abnormalities make up __% spontaneous 1st trimester abortions

Answer 120

50

Question 121

Chromosomal abnormalities make up ___% live born infants with congenital abnormalities

Answer 121

3

Question 122

What % of sperm are abnormal?

Answer 122

1-3%

Question 123

What percent of ova are abnormal?

Answer 123

> 3% with increasing abnormality with age